A ribosomal RNA-encoding DNA (rDNA) cloned sequence, consisting of a 0.8-kilobase fragment from the 26S/nontranscribed spacer region, was used to identify diagnostic restriction enzyme fragments that distinguish the Moreton and Torresian subspecies of the grasshopper Caledia captiva. These restriction fragments were then used to study patterns of rDNA variation across a narrow geographical hybrid zone between the two subspecies. The pattern of rDNA variation that emerged after the analysis ofover 250 individuals clearly demonstrates the asymmetrical introgression of the Moreton ribosomal RNA genes into the Torresian subspecies. This asymmetric movement of genetic material occurs even though there exists extreme postmating F2 and backcross inviability between the two subspecies. From our data, as well as those of previous chromosomal and allozymic studies, we are able to support the occurrence of nonrandom processes such as biased gene conversion and/or natural selection. Because the rDNA loci in the Moreton and Torresian individuals are located in different regions on chromosomes 10 and 11, it should be possible to determine the relative contributions of conversion, natural selection, and these sorts of processes to the pattern of introgression of the Moreton rDNA into the Torresian subspecies.How reproductive isolation develops during the speciation process remains a fundamental and unanswered question in evolutionary biology. As a corollary ofthis question, one can inquire about the consequences of repeated hybridization between partially reproductively isolated populations. Grant (1) has stated, in reference to the findings of Anderson (2), that long-term backcrossing of hybrid individuals to the parental types can result in ".... convergences between previously separate phyletic lines ...." However, it is also apparent that the introduction, maintenance, and persistence of foreign genetic material, despite significant pre-and/or postmating isolation, must be mediated by factors such as genetic drift, migration, and/or natural selection. Thus, the definition of interacting processes that lead to introgression (2) of genetic material is of fundamental importance in understanding how genetic systems may be perturbed. Indeed, it has been advocated that a major stimulus to speciation involves hybridization (3). Furthermore, the quantitation of the effects of factors such as genetic drift, migration, and selection is equally fundamental in understanding the evolution of organisms.In order to examine the above parameters, it is necessary to identify hybridizing taxa that have the following characteristics: (i) significant levels of reproductive isolation; (ii) morphological, physiological, or genetic markers that can be used to identify genomic components in parental and hybrid individuals; and (iii) definable differences in the habitats occupied by the taxa. Such a system has been identified in the grasshopper Caledia captiva. In particular, two subspecies (Moreton and Torresian) of C. captiva meet and f...
